M.E.M. Noble scite author profile

This review will focus on the role of the activation segment in the mediation of these different aspects of and David J. Owen control. The activation segment is defined as the region Laboratory of Molecular Biophysics spanning conserved sequences DFG and APE and cor-and Oxford Centre for Molecular Sciences responds to residues 184-208 in cAPK (Taylor and Rad-University of Oxford zio-Andzelm, 1994). The activation segment includes Oxford OX1 3QUThr-197, one of two autophosphorylation sites in cAPK. United KingdomThe conversion of an inactive kinase to an active kinase involves conformational changes in the protein that lead

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Presenting your structures: theCCP4mgmolecular-graphics software

McNicholas

Potterton

Wilson

et al. 2011

Acta Crystallogr D Biol Crystallogr

1,199

923

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Protein Kinase Inhibitors: Insights into Drug Design from Structure

Noble

Endicott

Johnson

2004

Science

1,160

870

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Protein kinases are targets for treatment of a number of diseases. This review focuses on kinase inhibitors that are in the clinic or in clinical trials and for which structural information is available. Structures have informed drug design and have illuminated the mechanism of inhibition. We review progress with the receptor tyrosine kinases (growth factor receptors EGFR, VEGFR, and FGFR) and nonreceptor tyrosine kinases (Bcr-Abl), where advances have been made with cancer therapeutic agents such as Herceptin and Gleevec. Among the serine-threonine kinases, p38, Rho-kinase, cyclin-dependent kinases, and Chk1 have been targeted with productive results for inflammation and cancer. Structures have provided insights into targeting the inactive or active form of the kinase, for targeting the global constellation of residues at the ATP site or less conserved additional pockets or single residues, and into targeting noncatalytic domains.

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The structural basis for specificity of substrate and recruitment peptides for cyclin-dependent kinases

et al. 1999

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Progression through the eukaryotic cell cycle is driven by the orderly activation of cyclin-dependent kinases (CDKs). For activity, CDKs require association with a cyclin and phosphorylation by a separate protein kinase at a conserved threonine residue (T160 in CDK2). Here we present the structure of a complex consisting of phosphorylated CDK2 and cyclin A together with an optimal peptide substrate, HHASPRK. This structure provides an explanation for the specificity of CDK2 towards the proline that follows the phosphorylatable serine of the substrate peptide, and the requirement for the basic residue in the P+3 position of the substrate. We also present the structure of phosphorylated CDK2 plus cyclin A3 in complex with residues 658-668 from the CDK2 substrate p107. These residues include the RXL motif required to target p107 to cyclins. This structure explains the specificity of the RXL motif for cyclins.

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M.E.M. Noble

Active and Inactive Protein Kinases: Structural Basis for Regulation

Presenting your structures: theCCP4mgmolecular-graphics software

Protein Kinase Inhibitors: Insights into Drug Design from Structure

The structural basis for specificity of substrate and recruitment peptides for cyclin-dependent kinases

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